//===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // <set> // class set // set(set&& s, const allocator_type& a); #include <set> #include <cassert> #include "MoveOnly.h" #include "../../../test_compare.h" #include "test_allocator.h" #include "Counter.h" int main() { #ifndef _LIBCPP_HAS_NO_RVALUE_REFERENCES { typedef MoveOnly V; typedef test_compare<std::less<MoveOnly> > C; typedef test_allocator<V> A; typedef std::set<MoveOnly, C, A> M; typedef std::move_iterator<V*> I; V a1[] = { V(1), V(1), V(1), V(2), V(2), V(2), V(3), V(3), V(3) }; M m1(I(a1), I(a1+sizeof(a1)/sizeof(a1[0])), C(5), A(7)); V a2[] = { V(1), V(1), V(1), V(2), V(2), V(2), V(3), V(3), V(3) }; M m2(I(a2), I(a2+sizeof(a2)/sizeof(a2[0])), C(5), A(7)); M m3(std::move(m1), A(7)); assert(m3 == m2); assert(m3.get_allocator() == A(7)); assert(m3.key_comp() == C(5)); assert(m1.empty()); } { typedef MoveOnly V; typedef test_compare<std::less<MoveOnly> > C; typedef test_allocator<V> A; typedef std::set<MoveOnly, C, A> M; typedef std::move_iterator<V*> I; V a1[] = { V(1), V(1), V(1), V(2), V(2), V(2), V(3), V(3), V(3) }; M m1(I(a1), I(a1+sizeof(a1)/sizeof(a1[0])), C(5), A(7)); V a2[] = { V(1), V(1), V(1), V(2), V(2), V(2), V(3), V(3), V(3) }; M m2(I(a2), I(a2+sizeof(a2)/sizeof(a2[0])), C(5), A(7)); M m3(std::move(m1), A(5)); assert(m3 == m2); assert(m3.get_allocator() == A(5)); assert(m3.key_comp() == C(5)); assert(m1.empty()); } { typedef MoveOnly V; typedef test_compare<std::less<MoveOnly> > C; typedef other_allocator<V> A; typedef std::set<MoveOnly, C, A> M; typedef std::move_iterator<V*> I; V a1[] = { V(1), V(1), V(1), V(2), V(2), V(2), V(3), V(3), V(3) }; M m1(I(a1), I(a1+sizeof(a1)/sizeof(a1[0])), C(5), A(7)); V a2[] = { V(1), V(1), V(1), V(2), V(2), V(2), V(3), V(3), V(3) }; M m2(I(a2), I(a2+sizeof(a2)/sizeof(a2[0])), C(5), A(7)); M m3(std::move(m1), A(5)); assert(m3 == m2); assert(m3.get_allocator() == A(5)); assert(m3.key_comp() == C(5)); assert(m1.empty()); } { typedef Counter<int> V; typedef std::less<V> C; typedef test_allocator<V> A; typedef std::set<V, C, A> M; typedef V* I; Counter_base::gConstructed = 0; { V a1[] = { V(1), V(1), V(1), V(2), V(2), V(2), V(3), V(3), V(3) }; const size_t num = sizeof(a1)/sizeof(a1[0]); assert(Counter_base::gConstructed == num); M m1(I(a1), I(a1+num), C(), A()); assert(Counter_base::gConstructed == 3+num); M m2(m1); assert(m2 == m1); assert(Counter_base::gConstructed == 6+num); M m3(std::move(m1), A()); assert(m3 == m2); assert(m1.empty()); assert(Counter_base::gConstructed == 6+num); { M m4(std::move(m2), A(5)); assert(Counter_base::gConstructed == 6+num); assert(m4 == m3); assert(m2.empty()); } assert(Counter_base::gConstructed == 3+num); } assert(Counter_base::gConstructed == 0); } #endif // _LIBCPP_HAS_NO_RVALUE_REFERENCES }